Patent application number | Description | Published |
20110280942 | FILM COATING COMPOSITION AND METHODS OF MAKING AND USING THE SAME - A film coating composition comprising a cellulosic polymer, an opacifying agent, and a fatty acid is disclosed herein. Also disclosed is a film coating composition comprising a cellulosic polymer, an opacifying agent, a plasticizing agent, and a polyol. The disclosed film coating compositions may be mixed with a solvent to produce a film coating suspension. The film coating suspension can be applied to a substrate, such as a nutritional supplement, pharmaceutical, tablet, capsule, softgel, granule, particle, food confectionary form, agricultural seed, and the like to form a film coating on the substrate. Methods of coating a substrate with the film coating suspensions are also provided. | 11-17-2011 |
20130095141 | FOOD GRADE DRY FILM COATING COMPOSITION AND METHODS OF MAKING AND USING THE SAME - A dry film coating composition comprising a cellulose film former, an oligofructose fiber, a plasticizing agent, and a processing aid is disclosed herein. Also provided is a film coating suspension comprising a cellulose film former, an oligofructose fiber, a plasticizing agent, a processing aid, and a solvent. The film coating suspension may be applied to a substrate, such as, for example, nutritional supplements, pharmaceuticals, tablets, capsules, softgels, granules, particles (e.g., micro- and nano-particles), agricultural seeds, and the like to form a dry film coating on the substrate. Methods of coating a substrate with the film coating suspensions are also provided. | 04-18-2013 |
20130115285 | ENTERIC COATING COMPOSITIONS AND METHODS OF MAKING AND USING THE SAME - An enteric coating composition including about 0.01% to about 10% resin and about 0.01% to about 10% polymer. The enteric coating composition may be applied to a substrate, such as a pharmaceutical, nutraceutical, fruit, vegetable, agricultural product, or industrial product, to form an enteric coating on the substrate. Also provided is a multiple-component system having a first component including a resin and a second component including a polymer, wherein mixing the first component and the second component forms an enteric coating composition having about 0.01% to about 10% resin and about 0.01% to about 10% polymer. Methods for coating a substrate with the enteric coating compositions are also provided. | 05-09-2013 |
Patent application number | Description | Published |
20100303949 | INJECTION UNIT FOR AN INJECTION MOLDING MACHINE - An injection drive unit includes a hollow cylindrical casing rotatably supported by a housing, the cylindrical casing having an axis and a front end and a back end spaced apart along the axis; a piston in the cylindrical casing, the piston axially slidable relative to the cylindrical casing along the axis between advanced and retracted positions, and the piston rotationally locked with the cylindrical casing to rotate therewith; and a cylinder cap generally closing off the back end of the cylindrical casing and providing a first pressure chamber between the piston and the cylinder cap, the cylinder cap including a stationary part affixed to the housing and a rotary part affixed to the cylindrical casing, at least the stationary part providing a stationary end face opposed to the piston and against which fluid in the first pressure chamber bears when pressurized. | 12-02-2010 |
20110151048 | SWIVEL MOUNT FOR AN INJECTION DRIVE - An injection molding machine includes a base, a platen mounted to the base for supporting a mold portion and a linear support fixed to the base. A retainer is coupled to the linear support and is translatable relative to the linear support along a longitudinal axis between a retracted position and an advanced position. The injection molding machine also includes an injection unit slidably supported on the linear support and coupled to the retainer. The injection unit is pivotable relative to the retainer and translatable with the retainer relative to the linear support. The injection unit includes a bearing surface resting directly upon the linear support for transferring weight of the injection unit thereto. | 06-23-2011 |
20110233823 | MOLD MOTION CONTROL SYSTEM FOR AN INJECTION MOLDING MACHINE - A method for injection molding comprises pre-positioning a clamp piston within a cylinder housing to a datum position axially intermediate a clamping position and an unclamped position, the clamp piston affixed to a tie bar, the clamp piston and cylinder housing cooperating to provide a clamp chamber and an unclamp chamber in a clamp cylinder housing on axially opposite sides of the clamp piston for urging the clamp piston towards the clamping and unclamped positions, respectively, when pressurized. Pre-positioning the clamp piston can include leaving a positioning gap between portions of a mold before releasably locking a tie bar to one of the moving or stationary platens, and then advancing the moving platen to substantially close the positioning gap after the releasable locking has been completed. Pre-positioning the clamp piston can include moving a stop member to an advanced position in the cylinder housing, and urging the clamp piston to bear against the stop member before the releasable locking step has been completed. | 09-29-2011 |
20110236527 | LOCKING DEVICE FOR AN INJECTION MOLDING MACHINE - A combination comprises first and second platens of an injection molding machine, a tie bar extending from the second platen to the first platen, and a locking device for releasably securing together the tie bar and the first platen. The locking device includes: a) a housing extending along an axis coaxial with the tie bar and including a first bearing surface affixed to the first platen; and b) a lock nut received in the housing and rotatable within the housing about the axis between locked and unlocked positions, the lock nut comprising an inner bore with radially inwardly projecting engagement elements that engage the tie bar when in the locked position to transfer an axial clamp load from the tie bar to the lock nut, the radially inwardly projecting engagement elements provided along a first axial extent of the lock nut and defining a tie bar engagement portion; an outer surface with at least a first step face for abutting the first bearing surface to transfer the axial clamp load from the lock nut to the first platen, the first step face having a first radially outer extent; and the lock nut including a narrowing section having a second axial extent bounded by a first position proximate the first step face and a second position spaced axially from the first step face in a direction towards the second platen, wherein the outer surface has a first diameter at the first position and a second diameter at the second position, the first diameter being less than the first radially outer extent and greater than the second diameter. | 09-29-2011 |
20110268834 | INJECTION MOLDING MACHINE WITH OFFSET MOVING PLATEN ACTUATOR - An injection molding machine comprises a first platen and a second platen, the first platen movable relative to the second platen in an axial direction between open and closed positions, and a plurality of tie bars extending generally between the first and second platens for coupling together the first and second platens. At least a first locking device is mounted to the first platen and associated with a first one of the tie bars for selectively locking and unlocking the moving platen relative to the tie bar. At least a first clamping mechanism is mounted to the second platen and associated with the first tie bar, the clamping mechanism including clamp and unclamp chambers on either side of a piston for moving the piston towards clamp and unclamp positions to exert a clamping force and a mold break force, respectively. The machine further includes a traverse actuator comprising one or more linear actuators coupled to at least one of the first and second platens for effecting said movement of the first platen relative to the second platen between the open and closed positions, the one or more linear actuators together being free of provision for applying a mold break force to the platens. | 11-03-2011 |
20130101695 | INJECTION MOLDING MACHINE WITH INTEGRATED PART HANDLING APPARATUS - An injection molding machine comprises: a machine base having a top surface, and a pair of platens supported on the top surface of the machine base, at least one of the platens translatable along a machine axis between open and closed positions. An end-effector is moveable relative to the machine base between an advanced position and a retracted position for interacting with parts associated with production in the injection molding machine. An upright has a lower end adjustably coupled to the machine base and an upper end spaced apart from the top surface of the machine base and coupled to the end-effector. | 04-25-2013 |
20130108725 | INJECTION UNIT WITH PISTON POSITION MEASUREMENT SYSTEM | 05-02-2013 |
20130256950 | INJECTION MOLDING MACHINE HAVING A TIE BAR ENGAGEMENT APPARATUS AND METHOD OF OPERATING SAME - An injection molding machine includes a base and an injection unit mounted to the base, and a first platen for holding a first mold section and a second platen for holding a second mold section. The first and second platens are supported by the base, and are movable along a machine axis between mold-open and mold-closed positions. At least a first tie bar engagement apparatus is associated with a first tie bar and includes a first bore in the first platen for receiving the respective tie bar therethrough at least when the platens are in the mold-closed position; and a first roller mounted to the first platen proximate the first bore. The first roller is rotatable about a first roller axis that is oriented horizontally and perpendicular to the machine axis. | 10-03-2013 |
20130287885 | TWO-PLATEN HYBRID INJECTION MOLDING MACHINE - An injection molding machine comprises a machine base, and a stationary platen and a moving platen supported by the base. Each platen supports a respective stationary and moving mold half for forming a mold between the platens. An electrically driven platen actuator is coupled to the moving platen for advancing and retracting the moving platen between mold-closed and mold-open positions. At least one hydraulic clamp actuator is coupled to the platens for clamping together the stationary and moving platens when the moving platen is in the mold-closed position. A hydraulically powered rotary injection drive is coupled to the plasticizing screw for rotating the screw, and a hydraulic injection actuator is coupled to a plasticizing screw for injecting the injection material into the mold. | 10-31-2013 |
20140255535 | VALVE ASSEMBLY FOR INJECTION MOLDING MACHINE - A valve assembly for use with a part handling assembly of an injection molding machine includes a housing having a first tooling port for fluid communication with a first set of receivers on the part handling apparatus and a second tooling port for fluid communication with a second set of receivers on the part handling apparatus. First and second vacuum channels extend through the housing and are provided with respective first and second vacuum closure members to provide selective fluid communication between a vacuum source and the first and second tooling ports, respectively. First and second pressure channels extend through the housing and are provided with respective first and second pressure closure members to provide selective fluid communication between a pressurized fluid source and the first and second tooling ports, respectively. The first pressure closure member is moveable independently from the first vacuum closure member, and the second pressure closure member is moveable independently from the second vacuum closure member. | 09-11-2014 |
20140363535 | LOCK MEMBER FOR AN INJECTION MOLDING MACHINE - A lock assembly for releasably coupling a platen to a tie bar of an injection molding machine includes first and second lock nut segments translatable in a transverse between locked and unlocked positions for respectively engaging and disengaging the tie bar, and a carrier assembly for coupling the lock nut segments to the platen. The carrier assembly provides a slide surface for slidably supporting the lock nut segments during the translation of the lock nut segments between the locked and unlocked positions, and the carrier assembly resiliently supports the slide surface for axial movement of the slide surface with the lock nut segments between an unloaded position in which the lock nut segments are spaced away from the platen by a clearance gap, and a loaded position in which the lock nut segments bear against the platen. | 12-11-2014 |
20140374956 | POST-MOLD COOLING INJECTION MOLDED ARTICLES - An injection molding machine includes a base; a pair of platens supported by the base, the platens supporting respective mold halves to form a mold; and a part-handling apparatus for holding and treating articles from the mold, the part handling apparatus separate from the mold. The part handling apparatus includes a take-out plate including at least one set of first cooling receivers for receiving and retaining a first set of molded articles from the mold, the first cooling receivers conductively transferring a first amount of thermal energy away from the first molded articles; and a supplemental cooling plate comprising at least one set of second cooling receivers for receiving and retaining the first set of articles; and the second cooling receivers conductively transferring a second amount of thermal energy away from the first molded articles. | 12-25-2014 |
20150158225 | INJECTION MOLDING MACHINE WITH INTEGRATED PART HANDLING APPARATUS - An injection molding machine includes a machine base supporting a first platen and at least a second platen for supporting respective mold sections, and a part handling apparatus for manipulating parts associated with molded part production. The part handling apparatus includes an upright supporting an end-of-arm tooling and an adjustable mount adjustably coupling the upright to the machine base. The adjustable mount includes at least a first linear rail extending parallel to the machine axis and structurally integrated with, and fixed relative to, the machine base at an elevation below an uppermost extent of the platens. The adjustable mount further includes a carriage fixed to the upright, the carriage adjustably coupled to the first rail. | 06-11-2015 |
20150290856 | LOCK MEMBER FOR AN INJECTION MOLDING MACHINE - A lock assembly for releasably coupling a platen to a tie bar of an injection molding machine includes first and second lock nut segments translatable in a transverse between locked and unlocked positions for respectively engaging and disengaging the tie bar, and a carrier assembly for coupling the lock nut segments to the platen. The carrier assembly provides a slide surface for slidably supporting the lock nut segments during the translation of the lock nut segments between the locked and unlocked positions, and the carrier assembly resiliently supports the slide surface for axial movement of the slide surface with the lock nut segments between an unloaded position in which the lock nut segments are spaced away from the platen by a clearance gap, and a loaded position in which the lock nut segments bear against the platen. | 10-15-2015 |
20150321401 | STACK MOLD SUPPORT STRUCTURE FOR AN INJECTION MOLDING MACHINE - An injection molding machine includes a base, a stationary platen fixed to the base for holding a first mold section, and a moving platen for holding a second mold section. The moving platen is slidably supported on a platen slide surface fixed to the base and moveable along a machine axis between a mold closed position, in which the moving platen is drawn towards the stationary platen, and a maximum daylight position, in which the moveable platen is spaced axially apart from the stationary platen by a platen opening. The machine further includes a carriage support structure slidably supporting a stack mold carriage for holding a mold center section. The stack mold carriage is translatable parallel to the machine axis between a carriage advanced position and a carriage retracted position spaced axially apart from the carriage advanced position by a carriage stroke length. The carriage support structure includes a pair of beams removably fixed relative to the base, the beams extending parallel to the machine axis and spaced apart from each other by a lateral spacing, each beam having a beam length that is less than the platen opening and greater than the carriage stroke length. | 11-12-2015 |
Patent application number | Description | Published |
20140267235 | TILT-BASED LOOK AROUND EFFECT IMAGE ENHANCEMENT METHOD - A tilt-based look around effect image enhancement method that enables two-dimensional images to be depth enhanced and displayed for example from a different point of view based on the tilt or orientation, and/or movement of the viewing device itself. Embodiments may further alter or otherwise utilize different parallax maps to apply depth to the image based on the display type, e.g., two-dimensional or stereoscopic display, and may dynamically utilize both algorithms on a display capable of both types of display. In addition, embodiments may display information foreign to the image when portions of the image are exposed during the look around effect, including advertisements, game information, hyperlinks or any other data not originally in the image. | 09-18-2014 |
20140327736 | EXTERNAL DEPTH MAP TRANSFORMATION METHOD FOR CONVERSION OF TWO-DIMENSIONAL IMAGES TO STEREOSCOPIC IMAGES - External depth map transformation method for conversion of two-dimensional images to stereoscopic images that provides increased artistic and technical flexibility and rapid conversion of movies for stereoscopic viewing. Embodiments of the invention convert a large set of highly granular depth information inherent in a depth map associated with a two-dimensional image to a smaller set of rotated planes associated with masked areas in the image. This enables the planes to be manipulated independently or as part of a group and eliminates many problems associated with importing external depth maps including minimization of errors that frequently exist in external depth maps. | 11-06-2014 |
20150249815 | METHOD FOR CREATING 3D VIRTUAL REALITY FROM 2D IMAGES - A method that enables creation of a 3D virtual reality environment from a series of 2D images of a scene. Embodiments map 2D images onto a sphere to create a composite spherical image, divide the composite image into regions, and add depth information to the regions. Depth information may be generated by mapping regions onto flat or curved surfaces, and positioning these surfaces in 3D space. Some embodiments enable inserting, removing, or extending objects in the scene, adding or modifying depth information as needed. The final composite image and depth information are projected back onto one or more spheres, and then projected onto left and right eye image planes to form a 3D stereoscopic image for a viewer of the virtual reality environment. Embodiments enable 3D images to be generated dynamically for the viewer in response to changes in the viewer's position and orientation in the virtual reality environment. | 09-03-2015 |
20150358612 | SYSTEM AND METHOD FOR REAL-TIME DEPTH MODIFICATION OF STEREO IMAGES OF A VIRTUAL REALITY ENVIRONMENT - Enables real-time depth modifications to stereo images of a 3D virtual reality environment locally and for example without iterative workflow involving region designers or depth artists that includes re-rendering these images from the original 3D model. Embodiments generate a spherical translation map from the 3D model of the virtual environment; this spherical translation map is a function of the pixel shifts between left and right stereo images for each point of the sphere surrounding the viewer of the virtual environment. Modifications may be made directly to the spherical translation map, and applied directly to the stereo images, without requiring re-rendering of the scene from the complete 3D model. This process enables depth modifications to be viewed in real-time, greatly improving the efficiency of the 3D model creation, review, and update cycle. | 12-10-2015 |
20150358613 | 3D MODEL MULTI-REVIEWER SYSTEM - A system that coordinates multiple simultaneous reviews of a 3D model, potentially from different viewpoints. Embodiments support multiple reviewers using review stations that render images of the model based on the pose of the reviewer. For example, multiple reviewers may use virtual reality headsets to observe a 3D virtual environment from different orientations. A coordinator uses a coordinator station to observe the entire 3D model and the viewpoints of each of the reviewers in this 3D model. Embodiments may support reviewer designation of regions within the model that require review or modification; these designated regions are also displayed on the coordinator station. Embodiments may support real time updates to the 3D model and propagation of updated images to the coordinator and to the multiple viewers. | 12-10-2015 |
20160005228 | METHOD OF CONVERTING 2D VIDEO TO 3D VIDEO USING 3D OBJECT MODELS - Method for converting 2D video to 3D video using 3D object models. Embodiments of the invention obtain a 3D object model for one or more objects in a 2D video scene, such as a character. Object models may for example be derived from 3D scanner data; planes, polygons, or surfaces may be fit to this data to generate a 3D model. In each frame in which a modeled object appears, the location and orientation of the 3D model may be determined in the frame, and a depth map for the object may be generated from the model. 3D video may be generated using the depth map. Embodiments may use feature tracking to automatically determine object location and orientation. Embodiments may use rigged 3D models with degrees of freedom to model objects with parts that move relative to one another. | 01-07-2016 |